US1346250A - X t iwt x t - Google Patents

X t iwt x t Download PDF

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US1346250A
US1346250A US1346250DA US1346250A US 1346250 A US1346250 A US 1346250A US 1346250D A US1346250D A US 1346250DA US 1346250 A US1346250 A US 1346250A
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protractor
angle
radii
rule
units
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  • My invention relates to mathematical instruments and' it comprises a protractor with the usual divisions indicating the delgrees, certain ot said divisions being con nected with the center oit the instrument by lines forming radii, a plurality of arcs beL ing ibrmed on the protractor parallel to the outer edge and equally spaced from each other dividing the radii into units, and the protractor beine' further provided with a second series or arcs equally spaced from each other and dividing the spaces between each pair of the iirst mentioned arcs into suitable subdivisions; and a rule, which is advantageously oit a length equal to the diameter of the protractor, the rule being divided into units and subdivisions equal in size to the units and subdivisions formed on the radii oi the protractor, and being provided with a second protractor at one end; all as more fully hereinafter set forth and as claimed. 1
  • the usual method is to employ certain formulae and to calculate the unknown sides and angles by the use of these formulae and the given quantities of the polygons.
  • these rules, formulae and other data are wellknown to mathematicians, engineers, and the like, but, even then, it is necessary to calculate to secure the desired information and there is always the possibility of errors in calculating.
  • the unknown quantities of a triangle may be determined without the use of any given formulae or rules, and without requiring the use of calculation.
  • the sides may be plotted on the protractor at the proper angle and the length of the third side determined with the rule forming a part of this invention.
  • one angle may be measured by the protractor formed on the rule and the other angle Specieation of Letters Latent.
  • ligure l is a tace view of the protractor
  • Fig 2 is a similar view of the rule.
  • the preti-actor 3 is, in this instance, semicircular and is divided into 1800 as indicated at e T he radii l connect every tenth degree with the center' C of the protractor. rlhe ten degrees at each edge of the protractor are provided with radii 5 connecting each alternate degree with the center, the radii upon one side passingI through the indications oi' even number and those on the opposite side connecting the odd degrees with the center. This permits laying ofi of angles of a size not a multiple of ten degrees.
  • the radii are intersect-ed by a plurality ot arcs l equally spaced from each other and parallel to the outer edge of the protractor, the arcs dividing the radii into a number of units.
  • a second series of arcs are arranged between each pair ofthe lirst mentioned arcs and form subdivisions. I lind it advantageous to divide the radii into ten units and each unit into ten subdivisions, but ot course the number of units and number of divisions may be varied under dif ferent circumstances.
  • the numerals 5 indicating degrees are proviced, the indication starting ten degrees in from each end and ranging to 80 upon the perpendicular.
  • rlhe rule 6 is provided with a protractor 7 arranged upon one end and provided with the usual divisions indicating degrees.
  • One edge 8 of the rule is divided into units and subdivisions equal in size to the units and subdivisions formed on the radii of the protractor. The zero point is advantageously arranged at the center of the protractor.
  • rllhe other edge 9 of the rule may be laid off in inches or in any other manner suitable to the user. l find it best to make the rule equal in length to the diameter o'l' theprotractor but under some circumstances the lengths may differ.
  • rlhe instrument is used in the following manner: .Given a right triangle BAC the side AC being 4.6 feet and the angle C being 500, rind the sides AB, BC and the angle B.
  • ⁇ angle C equals 98; iind thefside GF and the angle F and the angle G.
  • the lines GC and CF are laid'off ontheradii inclosing an angle of 930.
  • the line CG is then laid ofi' .5.4 units in length and a line CF is plotted 7.7 units in length.
  • a line is then drawn through the points G and F forming a triangleGGF.
  • Vthe line FG Vwith the Zero at the point F the length of the line will be found to be 9.7 or 97, and at the sametime'the angle F ⁇ may be read onthe protractor carried by the lrule and will be found to be 34.
  • rl ⁇ he angle QGF which is 530 can either be measured with the protractor or obtained by subtracting the sum of the angle G and the angle yF from 180.
  • WhatI claim is '1.
  • a mathematical instrument comprising, the combi- 'nation ofa rule and a protractorrsaid-instruinent-beingadapted to use 'in triangulation, the protractor having a series of radii extending from'the center outward and indicating degrees, a series of arcs equally spaced from each other dividing said radii into units and asecond series of arcs 'arranged between eachpair of the first mentioned arcs and divi'ding said radii into subdivisions, the

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Description

J. PURING.
MATHEMATICAL INSTRUMENT.
APPLlcM'xoN FILED :w1/w10, 1916.
1,346,250. Patented July 13, 1920.
lllllllIlo IN V EN TOR.
/y m lA TToRNEYs.
UNITED 'rra ATENT QFFICE..-`
JOHN PURINGy OF NEW YORK, N. Y.
MATHEMATECAL INSTRUMENT.
Application led May 10,
To all fio/tom t may concern.'
Be it known that I, JoHN lUmNG, a subject of the Czar of Russia, and resident oit N ew York, in the county ot New York and State of New York, have invented certain new and useiul Improvements in Mathe matical instruments, or' which the following is a specification.
My invention relates to mathematical instruments and' it comprises a protractor with the usual divisions indicating the delgrees, certain ot said divisions being con nected with the center oit the instrument by lines forming radii, a plurality of arcs beL ing ibrmed on the protractor parallel to the outer edge and equally spaced from each other dividing the radii into units, and the protractor beine' further provided with a second series or arcs equally spaced from each other and dividing the spaces between each pair of the iirst mentioned arcs into suitable subdivisions; and a rule, which is advantageously oit a length equal to the diameter of the protractor, the rule being divided into units and subdivisions equal in size to the units and subdivisions formed on the radii oi the protractor, and being provided with a second protractor at one end; all as more fully hereinafter set forth and as claimed. 1
In the computation of unknown geometrical quantities of a given polygon, the usual method is to employ certain formulae and to calculate the unknown sides and angles by the use of these formulae and the given quantities of the polygons. Ot' course these rules, formulae and other data are wellknown to mathematicians, engineers, and the like, but, even then, it is necessary to calculate to secure the desired information and there is always the possibility of errors in calculating. With the present invention, the unknown quantities of a triangle may be determined without the use of any given formulae or rules, and without requiring the use of calculation.
In the present invention, given certain data, such as the length of two sides of a triangle and the size of the angle `l'ormed by the intersection of the two sides, the sides may be plotted on the protractor at the proper angle and the length of the third side determined with the rule forming a part of this invention. At the same time one angle may be measured by the protractor formed on the rule and the other angle Specieation of Letters Latent.
lilpa'tented July 13, 1920.
1915. Serial N0. 96,548.
may be then ascertained by measuring or subtracting the sum ot the two angles known from 1800.
ln the accompanying drawings l have shown 'an advantageousembodiment of this in vent-ion.
ligure l is a tace view of the protractor; and
.Fig 2 is a similar view of the rule.
The preti-actor 3 is, in this instance, semicircular and is divided into 1800 as indicated at e T he radii l connect every tenth degree with the center' C of the protractor. rlhe ten degrees at each edge of the protractor are provided with radii 5 connecting each alternate degree with the center, the radii upon one side passingI through the indications oi' even number and those on the opposite side connecting the odd degrees with the center. This permits laying ofi of angles of a size not a multiple of ten degrees.
The radii are intersect-ed by a plurality ot arcs l equally spaced from each other and parallel to the outer edge of the protractor, the arcs dividing the radii into a number of units. A second series of arcs are arranged between each pair ofthe lirst mentioned arcs and form subdivisions. I lind it advantageous to divide the radii into ten units and each unit into ten subdivisions, but ot course the number of units and number of divisions may be varied under dif ferent circumstances. Upon one of the arcs the numerals 5 indicating degrees are proviced, the indication starting ten degrees in from each end and ranging to 80 upon the perpendicular.
rlhe rule 6 is provided with a protractor 7 arranged upon one end and provided with the usual divisions indicating degrees. One edge 8 of the rule is divided into units and subdivisions equal in size to the units and subdivisions formed on the radii of the protractor. The zero point is advantageously arranged at the center of the protractor. rllhe other edge 9 of the rule may be laid off in inches or in any other manner suitable to the user. l find it best to make the rule equal in length to the diameter o'l' theprotractor but under some circumstances the lengths may differ.
rlhe instrument is used in the following manner: .Given a right triangle BAC the side AC being 4.6 feet and the angle C being 500, rind the sides AB, BC and the angle B.
Upon one of the radii lay off the line AC 4.6 units in length. Draw the line AB perpendicular to the line AC and passingthrou'gh the point A. Draw the line CB onthe radii forming an angle of 500 withthe line AU. The intersection of lines AB and CB form the triangle and by placing the rule upon' the line AB .with zero on the point'B, the length of AB will be found to be 5.5 feet and at the same time the angle Bf'can be read on the 'radiiV on the rule, the angle being 400. rlhe line CB which is 7 .2 feet can be determined by the units-.and subdivisions on the radii. Having a triangle GCF in which GC equals 5.4, or 54; yFC equals 7.7 or 7 7; and
`angle C equals 98; iind thefside GF and the angle F and the angle G. The lines GC and CF are laid'off ontheradii inclosing an angle of 930. The line CG is then laid ofi' .5.4 units in length and a line CF is plotted 7.7 units in length.
A line is then drawn through the points G and F forming a triangleGGF. By placing the ruleon Vthe line FG Vwith the Zero at the point F the length of the line will be found to be 9.7 or 97, and at the sametime'the angle F `may be read onthe protractor carried by the lrule and will be found to be 34. rl`he angle QGF which is 530 can either be measured with the protractor or obtained by subtracting the sum of the angle G and the angle yF from 180.
From the foregoing it will be seen by the 4use of this instrument the sides and angles of a triangle may be determined bythe simple means of plotting lines upon the pro- :tractor and measuring the lines and angles with the ruleuand the ypretractor carried Abythe rule. Although I have described the use` of my-inventionin connection with a triangle it is to be understood that the instrument is capable of various, uses in connection with polygons ofall types.
WhatI claim is '1. As an article of manufacture a mathematical instrument comprising, the combi- 'nation ofa rule and a protractorrsaid-instruinent-beingadapted to use 'in triangulation, the protractor having a series of radii extending from'the center outward and indicating degrees, a series of arcs equally spaced from each other dividing said radii into units and asecond series of arcs 'arranged between eachpair of the first mentioned arcs and divi'ding said radii into subdivisions, the
known quantities ofthe triangle being adapted to be plotted on saidprotractor and the triangle completed, theesaid -rule being provided with unitsl land subdivisions equal l in size to the units and subdivisions of the protractor to measure the lengths of the unknown sides'of the triangleby'applicavtion thereto.
Jol-IN Primus.`
Witnesses: y
ELEANOR E. lVoRs'rnn, ANNA D. McMAHoN.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4057902A (en) * 1974-08-22 1977-11-15 Atsushi Matsui Multipurpose disk protractor
GB2347512A (en) * 1999-03-01 2000-09-06 Llawrence Shackell Multifunctional set square

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4057902A (en) * 1974-08-22 1977-11-15 Atsushi Matsui Multipurpose disk protractor
GB2347512A (en) * 1999-03-01 2000-09-06 Llawrence Shackell Multifunctional set square
GB2347512B (en) * 1999-03-01 2001-02-14 Llawrence Shackell Multifunctional drawing and measurement device

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